EP2315069A1 - Method for manufacturing frameless glasses - Google Patents

Abstract

The manufacturing of rimless spectacles comprises manufacturing (S1) two lens blanks of a plastic material, applying a coating to the front side and the rear side of the lens blanks, machining the lens blanks in such way that the two lenses having a desired lens shape are obtained, manufacturing the two lugs, manufacturing the bridge, determining the mounting positions for the fasteners of the lugs and the bridge on the front side/the rear side of the lenses, and removing the coating at the mounting positions to form joining surfaces at the lenses. The manufacturing of rimless spectacles comprises manufacturing two lens blanks of a plastic material, applying a coating to the front side and the rear side of the lens blanks, machining the lens blanks in such way that the two lenses having a desired lens shape are obtained, manufacturing the two lugs, manufacturing the bridge, determining the mounting positions for the fasteners of the lugs and the bridge on the front side/the rear side of the lenses, and removing the coating at the mounting positions to form joining surfaces at the lenses, and adhesively bonding the fasteners of the lugs and the bridge to the front side and/or the rear side of the lenses at the mounting positions. The rimless spectacles comprise two lenses, a bridge disposed between the two lenses for connecting the two lenses to each other, two lugs each of which is connected to one of the two lenses at an edge area of the lens facing away from the bridge, and two sides each of which is hingedly connected to one of the two lugs in which each lug includes a fastener having a joining surface for connecting the lug to either of the two lenses. The bridge includes two fasteners having a joining surface for connecting the bridge to the two lenses. The applied coating comprises a hard layer, a dirt-repelling layer, an anti-reflection layer or a reflective layer. The coating is removed up to the entire thickness of the coating, at the mounting positions. For forming the joining surfaces at the lenses, the coating is removed at the mounting positions in an area of the front side and/or the rear side of the respective lens, which corresponds to shape and dimensions to the joining surface of the respective fastener to be adhesively bonded. The coating is removed by grinding or milling and using a face grinding tool, which performs a high-frequency rotation or reciprocating movement. The coating is removed by abrasive-blasting abrasive particles. The coating is removed by radiation with laser light. The first the respective fastener is arranged at and pressed onto the allocated mounting position and then an adhesive is introduced in a dosed amount between the joining surfaces provided at the lens and at the fastener. For a respective one of the fasteners, a mask having an opening whose contour at least partly coincides with the perimeter of the joining surface of the fastener is detachably fixed at the lenses, namely such that the opening of the mask is provided at the mounting position for the fastener and there delimits the joining surface to be formed at the lens. The coating is removed by an abrasive treatment of the front side or the rear side of the lens in the area delimited by the opening of the mask detachably fixed at the lens. The abrasive treatment is performed by milling, grinding and a grinding tool. The grinding tool performs a high-frequency rotation or reciprocating movement at a frequency of 15-40 kHz, preferably 24-30 kHz. The mounting position for the respective fastener is determined at the lens by means of the opening of the mask. The fastener is adhesively bonded to the lens, while the mask is detachably fixed at the lens. The fastener is attached to the lens in the area delimited by the opening of the mask fixed at the lens and is adhesively bonded to the lens in the given position relative to the latter. The adhesive is introduced in a dosed amount between the joining surfaces provided at the lens and at the fastener after having attached the fastener to the lens. The body is manufactured of metal. The joining surface of a respective fastener has a rectangular shape. The joining surface of the respective fastener is roughened and treated with acetone. The lugs and the bridge are made of a body and the fastener or fasteners. The body is manufactured of a material different from that of the fastener or fasteners. The fasteners are manufactured of a flexible plastic material of low hardness. The hardness of the plastic material is 40-60 Shore D. The body and the respective fastener are manufactured separately and are connected to each other by frictional or positive connection. The fastener is connected to the pertinent body by attaching the fastener by an injection-molding process. An independent claim is included for a mask.

Description

The invention relates to a method for producing a rimless glasses. A rimless glasses comprises two lenses and a bridge, which is arranged between the two lenses and connected thereto, wherein the bridge carries side bars or a saddle bar or is formed integrally with the saddle bar or the side bars. Furthermore, a rimless glasses comprises two jaws, which are each connected to one of the two lenses on a side facing away from the bridge edge region of the lens, and two brackets, which are each hingedly connected to one of the two jaws. Such rimless glasses have no along the upper edges and / or the lower edges of the lenses extending socket parts that connect the bridge with the two jaws. Rather, the cohesion between jaws and bridge is provided by the lenses arranged therebetween. Therefore, it is necessary to connect the jaws and the bridge mechanically sufficiently firmly with the lenses.

On the other hand, it is known to produce the connection between the jaws and the bridge on the one hand and the respective spectacle lens on the other hand by initially forming at least one through hole in the spectacle lens at the attachment point for the jaws or the bridge. In the through hole, a screw or a rivet can be used to screw or rivet the jaw or the bridge to the lens. It is also known, on the component to be fastened, ie on the jaw or the Bridge to provide a pin which is glued or pegged in the through hole of the lens. These known types of connection have the disadvantage that through holes must be formed in the lenses. During the formation of the through-holes, for example by drilling or milling, there is a risk that the spectacle lens breaks, resulting in a considerable waste in the production of such rimless spectacles. Furthermore, the through-holes in the spectacle lenses cause stresses which result in an increased risk of breakage during use of the spectacles.

It is also known, in a rimless glasses, the bridge and the jaws with the lenses by means of an adhesive to connect (see the publications DE 9 402 861 U1 . FR 2 793 040 B ). In these known rimless glasses, the bridge and the jaws are glued to the edges of the lenses. By this bonding of bridge and jaw with the lenses and should be avoided that through holes must be formed in the lenses and are available to connect the bridge and the jaw with the lenses.

It has also been proposed, in a rimless glasses, the bridge and / or the jaws with the lenses on the front or back to glue (see the publications DE 102005006980 A1 . US 5,805,259 A . FR 2 624 278 A1 and FR 2 749 088 A1 ). If the jaws and the bridge with the front or the back of the lenses are glued, this has the advantage that on the front or back, a larger joint surface is available for bonding than at the edges of the Spectacle lenses, which may be narrow in spectacles with high refractive index. According to the document FR 2 749 088 A1 it is envisaged that the adhesive is a radiation-curable adhesive and that the lenses are to be polished at the attachment locations at which fasteners of the jaws and the bridges are to be glued to the lenses so that the radiation with the aid of which the adhesive is cured, as undimmed as possible can get to the adhesive.

Previous efforts to produce a rimless glasses characterized in that the jaws and the bridge are glued to the front or the back of the lenses have not been successful, because no permanently solid adhesive bonds could be achieved and the adhesive joints are often broken.

A method for producing a rimless glasses with the features of the preamble of claim 1 is known by the already mentioned above document DE 10 2005 006 980 A1 ,

The invention has for its object to provide a method for producing a rimless glasses, in which the bridge and the jaws are connected to the lenses in that bridge and jaws are glued to the front or the back of the lenses, the adhesive bonds permanently should be firm and such durable adhesive bonds are reliably and regularly achieved.

This object is achieved by the method according to claim 1.

The application of a coating on the front and the back of the spectacle lenses, as provided according to step g) of claim 1, is known per se.

According to the invention, the coating is removed at the attachment locations for the connecting elements of the bridge and the jaws, in order thereby to form joining surfaces on the spectacle lenses, at which the bonding takes place with the joining surfaces of the jaws and the bridge. By removing the coating at the mounting locations, the base material of the lenses is exposed in the region of the joining surfaces. It has been found that when the joining surfaces on the lenses have the material nature of their base material, a permanently strong adhesive bond can be achieved.

The inventive method has the fundamental advantage that in the lenses no holes, whether through holes or blind holes, and no recesses are formed. This avoids the disadvantages caused by drilling or milling the lenses to form holes or recesses. Because the lenses are not drilled or milled, it can not break the lenses by drilling or milling and appropriate rejects in eyewear manufacturing. For the same reason, no tensions are induced in the lenses, which could result in the use of the glasses a glass breakage. The spectacle lenses of the rimless spectacles according to the invention are free of tension. Furthermore, the method according to the invention has the advantage that spectacles with coated spectacle lenses can be produced by this method. The coating of the lenses is common today to provide the surfaces of the lenses with desired properties such as dirt-repellent properties and scratch resistance. This means that despite the bonding of the connecting elements with the front or the back of the lenses, which is advantageous for the reasons discussed below, does not need to be dispensed with the coating of the lenses.

Another advantage of the method according to the invention is that the connecting elements of the jaws and the bridge with the front or the back of the lenses are glued. On the front side or the rear side of the spectacle lenses, a sufficiently large surface is available for the formation of the joining surfaces on the spectacle lenses, so that the joining surfaces on the spectacle lenses and the connecting elements of jaws and bridges can be dimensioned sufficiently large to provide a firm adhesive connection to reach. This advantageously distinguishes the method according to the invention from those methods in which the bridge and the jaws are adhesively bonded to the edges of the spectacle lenses because the edges of the spectacle lenses are often narrow, in particular for non-prescription spectacles such as sunglasses, and prescription spectacles whose spectacle lenses have a have high refractive index. Because according to the invention, the connecting elements of the jaws and the bridge with the front or the back of the lenses are glued lead, transferred from the bridge or the jaws to the lenses transmitted forces lower stresses in the lenses than when the fasteners are glued exclusively or predominantly with the edges of the lenses. It should be clarified that in the method according to the invention, it is not excluded that the connecting elements are merely glued in addition to the edges of the spectacle lenses.

Finally, an essential feature and a significant advantage of the method according to the invention is that the coating is removed at the mounting locations to form the joining surfaces on the lenses. It has been found that only by this measure reliably permanently solid adhesive bonds are achieved, namely using an adhesive from the amount of existing, known per se adhesives.

In an advantageous embodiment of the invention can be provided that the coating is removed by means of a Stirnschleifwerkzeugs, the high-frequency rotational movement or reciprocation in contact with the front or back of the lens at a frequency in the range of 15 to 40 kHz, preferably in Range of 24 to 30 kHz. It has been found that if the removal of the coating takes place in this way, the grinding process can be limited to the removal of the usually very thin coating in a simple manner and the base material of the lenses is exposed without generating stresses in the spectacle lens.

In an advantageous embodiment of the invention may also be provided that the jaws and the bridge respectively are made of a base body and the connecting element or the connecting elements, wherein the connecting elements are made of a flexible plastic with low hardness and the base body is made of a different material than that of the connecting elements. This makes it possible to manufacture the basic body from a material which is sufficiently firm with respect to the mechanical stresses of the spectacles, including metal, and to give the connecting elements a buffer function which protects the adhesive layer between the joining surfaces from impact loads.

Aliphatic, thermoplastic polyether urethane have proven to be particularly suitable as a material of the fasteners and cyanoacrylate adhesive as an adhesive.

Further advantageous embodiments of the invention are defined in the dependent claims.

The method according to the invention can be used both in the production of correction spectacles and in the production of spectacles without corrective action, such as sunglasses.

• Figur 1 eine perspektivische Ansicht eines ersten Ausfühungsbeispiels einer nach dem erfindungsgemäßen Verfahren hergestellten randlosen Brille;
• Figur 2 eine perspektivische Ansicht einer linken Backe der Brille gemäß Figur 1 von hinten;
• Figur 3 eine schematische Unteransicht, teilweise im Schnitt, des linken Randbereichs des linken Brillenglases der Brille gemäß Figur 1, wobei der Zustand dargestellt ist, den ein mit dem Brillen-Rohglas verklebtes Verbindungselement und ein zugeordneter Grundkörper der Backe einnehmen, bevor sie zusammengefügt werden;
• Figur 4 eine Figur 3 entsprechende Darstellung, wobei der Zustand nach dem Zusammenfügen von Verbindungselement und Grundkörper dargestellt ist;
• Figur 5 eine perspektivische Ansicht des linken Brillenglases der Brille gemäß Figur 1 von vorn mit der daran befestigten linken Backe;
• Figur 6 Schnittdarstellungen gemäß A-A bzw. B-B in Figur 2;
• Figur 7 ein Blockdiagramm der Verfahrensschritte des erfindungsgemäßen Verfahrens;
• Figur 8 ausschnittsweise einen Schnitt durch ein beschichtetes Brillenglas zur Erläuterung eines Schrittes des erfindungsgemäßen Verfahrens;
• Figur 9 eine perspektivische Ansicht eines Brillen-Rohglases;
• Figur 10 in perspektivischer Darstellung zwei an einer Montageplatte fixierte Brillengläser zur Erläuterung von Schritten des erfindungsgemäßen Verfahrens;
• Figur 11 ausschnittsweise einen Schnitt durch ein Brillenglas zur Erläuterung eines Schrittes des erfindungsgemäßen Verfahrens;
• Figur 12 ausschnittsweise einen Schnitt durch ein Brillenglas zur Erläuterung eines weiteren Schrittes des erfindungsgemäßen Verfahrens;
• Figuren 13 bis 16 Elemente einer Brille gemäß einem zweiten Ausführungsbeispiel einer nach dem erfindungsgemäßen Verfahren hergestellten randlosen Brille;
• Figuren 17 bis 20 Elemente eines dritten Ausführungsbeispiels einer nach dem erfindungsgemäßen Verfahren hergestellten randlosen Brille; und
• Figur 21 in perspektivischer Darstellung eine linke Backe einer Abwandlung des dritten Ausführungsbeispiels.

The invention is explained in more detail below with reference to exemplary embodiments with reference to the drawings. Show it:

• FIG. 1 a perspective view of a first Ausfühungsbeispiels of a rimless glasses produced by the method according to the invention;
• FIG. 2 a perspective view of a left cheek of the glasses according to FIG. 1 from the back;
• FIG. 3 a schematic bottom view, partially in section, the left edge portion of the left lens of the glasses according to FIG. 1 showing the state that a bonding member bonded to the spectacle raw glass and an associated body of the jaw occupy before being joined together;
• FIG. 4 a FIG. 3 corresponding representation, the state after the joining of the connecting element and the base body is shown;
• FIG. 5 a perspective view of the left lens of the glasses according to FIG. 1 from the front with the left cheek attached to it;
• FIG. 6 Sectional views according to AA or BB in FIG. 2 ;
• FIG. 7 a block diagram of the method steps of the method according to the invention;
• FIG. 8 a section through a coated spectacle lens for explaining a step of the method according to the invention;
• FIG. 9 a perspective view of a spectacle lens;
• FIG. 10 in a perspective view of two fixed to a mounting plate lenses for explaining steps of the method according to the invention;
• FIG. 11 a section through a spectacle lens for explaining a step of the method according to the invention;
• FIG. 12 a section through a spectacle lens to explain a further step of the method according to the invention;
• FIGS. 13 to 16 Elements of spectacles according to a second embodiment of a rimless spectacles produced by the method according to the invention;
• FIGS. 17 to 20 Elements of a third embodiment of a rimless glasses produced by the method according to the invention; and
• FIG. 21 in perspective view a left jaw of a modification of the third embodiment.

The following is first based on the FIGS. 1 to 6 a first embodiment of an inventive rimless eyeglasses explained.

FIG. 1 shows these glasses in perspective view obliquely from the front. The glasses comprise a left lens 2, a right lens 4 and a bridge 6 arranged between the two lenses. Each of the two lenses 2 and 4 has an in FIG. 1 visible front 3, one in FIG. 1 invisible back and a peripheral edge 5, which limits the lens radially outward, based on its optical center. The bridge 6 is an elongate element which is arranged between the two lenses 2 and 4 and connects them together. The bridge 6 consists of a main body 8 and two in FIG. 1 Not shown connecting elements, which are each arranged at one end of the bridge 6 and with the in FIG. 1 visible front side 3 of the lens 2 and 4 are glued. A web component 10 is fastened to the bridge 6 and serves to support the spectacles on the nose of the spectacle wearer.

The glasses also have a left jaw 12 and a right jaw 14. The jaws 12 and 14 are each connected to a bracket 15 so articulated that the bracket 15 from their in FIG. 1 shown open positions can be pivoted into positions in which they are substantially parallel to the two lenses 2 and 4.

The jaws 12 and 14 are each connected to a remote from the bridge 6 edge region of the lens 2 and 4 with this. Each of the two jaws 12 and 14 consists of a base body 16 and a connecting element 18 (see FIG. 2 ), wherein the base body 16 has a leg 19 which is arranged on the front side 3 of the associated spectacle lens 2 or 4. In the illustrated embodiment, the main body 8 of the bridge 6 and the base body 16 of the jaws 12 and 14 each consist of an injection-molded plastic, such as a polyamide, as for example under the name Trogamid by Degussa AG or under the name Grilamid by the company Ems-Chemie AG, or from a polyetherimide, as it is sold for example by the company GE Plastics under the name Ultem.

FIG. 2 shows a perspective view of the left jaw 12 and its connecting element 18, which serves for connecting the jaw 12 with the lens 2 and thus for fixing the jaw 12 on the lens 2. The connecting element 18 and the base body 16 are elements which are initially made separately from each other and are connected to each other in the course of the manufacture of the glasses.

The connecting element 18 consists of an injection-molded plastic, for example an aliphatic, thermoplastic polyether polyurethane, as it is marketed for example by Bayer AG Bayer Polymers under the name Texin DP7-3007, which has a hardness of 50 to 55 Shore D. The connecting element 18 has substantially the shape of a cuboid and comprises a plate 20 with a base 22, an elongated head 24 and an elongate web 26 which connects the plate 20 and the head 24 together. The head 24 has, in a cross-section perpendicular to its longitudinal direction C, the in FIG. 6 shown head profile, which is a so-called hammer head profile. The base 22 of the plate 20 of the connecting element 18 forms its adhesive or joining surface, ie the surface which is glued to a complementary joining surface on the front side 3 of the spectacle lens by means of an adhesive.

At its end facing the bracket 15, the jaw 12 has a hinge eye 28 which engages a pivot pin (not shown) formed on the bracket 15 so that the hinge eye 28 and the pivot pin form a hinge in the form of a hinge in which the jaw 12 and the bracket 15 are hinged together.

On the in FIG. 2 visible back of the leg 19 of the body 16 of the jaw 12 is formed in the leg 19, a groove 30, the groove profile is formed complementary to the head profile of the head 24. The groove 30 is closed at its end facing the free end of the leg 19 and open at its other end, so that the Head 24 of the connecting element 18 can be inserted into the groove.

In the course of the production of the glasses, the connecting element 18 is glued to the front side 3 at a preselected attachment location in the edge region of the spectacle lens 2. The bonding of the connecting element 18 with the spectacle lens 2 will be explained in more detail below. FIG. 3 shows the connecting element 18 after it has been bonded to the spectacle lens 2. Further shows FIG. 3 the base body 16 of the jaw 12 in that relative position with respect to the spectacle lens 2 and the connecting element 18, which occupies the base body 16 immediately prior to assembly with the connecting element 18. The joining takes place in such a way that the base body 16 from its in FIG. 3 shown position in the direction of in FIG. 3 shown arrow is pushed onto the connecting element 18, wherein the head 24 enters the groove 30. The base body 16 is pushed onto the connecting element 18 so far that the connecting element 18 and the base body 16 their in FIG. 4 assume relative position, in which the head 24 of the connecting element 18 is fully inserted into the groove 30. The head 24 and the groove 30 are dimensioned such that their surfaces abut each other at least partially under pressure, so that static friction between these surfaces occurs and thereby the connecting element 18 and the base 16 are connected to each other by frictional connection.

After the main body 16 and the connecting element 18 have been assembled in the manner described above, resulting in the FIG. 5 shown arrangement of the left lens 2 and the attached left jaw 12th

The right jaw 14 is fixed to the right lens in the same manner as described above for the left jaw 12 and the left lens 2. Furthermore, the bridge 6 is fixed at its two ends in the same way to the inner edge regions of the lenses 2 and 4, as has been described above for the left jaw 12 and the left edge portion of the left lens 2.

As is apparent from the above description, the lenses 2 and 4 have no through holes, blind holes or other recesses that need to be drilled or milled. The bridge 6 and the jaws 12 and 14 are attached to the front sides 3 of the lenses exclusively by gluing the respective connecting elements with the lenses.

In the described embodiment, the respective connecting element 18 and the associated base body 8 and 16 are initially separately manufactured elements. This makes it possible and is exploited in the described embodiment to make the base body of a different material than the material of the associated connecting element. As a material for the body expediently a material is selected which has sufficient strength in view of the mechanical stresses of the glasses. As a material for the respective connecting element, a material is selected, which is softer and more elastic than that of the main body, so that the connecting element a buffer or Has damping function, which protects the adhesive layer between the joining surfaces against shock loads and thereby prevents breakage of the adhesive bond. Preferably, as is the case in the described embodiment, the respective connecting element is glued to the spectacle lens before the main body of the jaw or the bridge is connected to the connecting element. This facilitates the bonding of the connecting element with the spectacle lens. However, the buffer or damper function of the connecting element is also present when the connecting element is connected before gluing to the spectacle lens with the main body or if, as is possible, in the course of the production of the bridge and the jaws, the connecting element at the associated Main body is injection-molded in an injection molding process.

In the embodiment described above, the connecting elements 18 are glued to the front sides 3 of the lenses 2 and 4 and are accordingly arranged the legs 19 of the jaws 12 and 14 and the ends of the bridge 6 on the front sides 3 of the lenses. Deviating from this, however, the connecting elements 18 can also be glued to the backs of the lenses and the legs of the jaws and the ends of the bridge can be arranged accordingly on the backs. However, it is preferred to bond the connecting elements with the spectacle lenses on their front sides, since in spectacles with different corrective effect the differences between the curvatures of the front sides are smaller than the differences between the curvatures of the back sides. The following is with reference to the FIGS. 7 to 12 the inventive method for producing a rimless glasses explained by way of examples. FIG. 7 shows in the form of a block diagram the method steps which are carried out in the method according to the invention.

In a first step S1, two spectacle lenses are made of a plastic, for example by casting and pressing. As plastic, i. As the base material of the spectacle lenses to be produced, the plastics customary for spectacle lenses are suitable, such as, for example, polycarbonates and allyl diglycol carbonate, which is known under the name CR39 as spectacle lens material.

In a subsequent second step S2, a coating is applied to the front and back of each spectacle lens. The coating 32 usually consists of several layers, as shown in FIG FIG. 8 is shown. By way of example, a so-called hard layer 36 is applied to the base material 34, from which the spectacle raw glasses consist, by dipping, which is intended to ensure scratch resistance of the surfaces (front and back) of the spectacle lenses. On the hard layer 36 can then be applied by vapor deposition an anti-reflection layer 38, which in turn may consist of several layers. The anti-reflection layer 38 is intended to suppress regular reflection. Alternatively, if a high reflectance is desired, a mirroring layer may be applied. As the uppermost layer, for example, a dirt-repellent layer 40 is applied, which has hydrophobic and oleophobic properties and adherence to prevent dirt. The total thickness of the coating is in the range of less than 1 micron up to a few microns.

In the following step S3, the desired lens shape is formed on the coated spectacle raw lenses. For this purpose, each coated spectacle raw glass 42, which has a circular edge, is usually attached to a glass holder 44 (see FIG. 9 ), so that by milling and grinding the spectacle lens 42 of this so much material is removed that a lens with the desired disc shape is obtained. The desired disk shape 46 is in FIG. 9 shown in dashed lines. The shape of a disk usually refers to the geometric shape of the edge of a spectacle lens. As a result of the milling and grinding of the respective spectacle raw glass 42, for example, the two spectacle lenses 2 and 4 of the exemplary embodiment explained above receive the edges 5.

Further, in a step S6, a bridge and two jaws are made for each pair of glasses. The bridge and the jaws, for example, have the shape and texture as described above for the first embodiment of the spectacles. In this case, the connecting elements 18 are manufactured by injection molding from an injection-moldable plastic. If, as is the case with the first embodiment of the spectacles, the base body of the jaws and the bridge are also made of plastic, these are also injection molded from an injection-moldable plastic. Alternatively, however, the basic body can also be made of a metallic material by customary metal-working methods be made. In the first embodiment of the spectacles described above, the connecting elements and the base body are first manufactured as separate elements, which are connected to one another after the bonding of the connecting elements with the front or the back of the lenses frictionally or positively. As already mentioned, however, this connection can be made even before the bonding of the connecting elements with the spectacle lenses. Furthermore, it is possible to inject the connecting elements on the respectively associated main body, irrespective of whether it consists of a plastic or a metallic material, in an injection molding process, thereby partially or completely sheathing the basic body with the material of the connecting element. Finally, each bridge, including its two connecting elements and each jaw, including its connecting element, can be injection-molded in one piece from a plastic. In each of the cases considered above, a substantially flat joining surface is formed on the respective connecting element, which is intended to be firmly bonded to a complementary joining surface on the front or the back of one of the two spectacle lenses. In the first embodiment described above, the base 22 of the plate 20 of the connecting element 18 forms such a joining surface.

After the two spectacle lenses have been manufactured with their desired disc shape, the bridge including its two connecting elements and the two jaws including their respective connecting element, the connecting elements with the front sides glued to the lenses. For this purpose, the two lenses 2 and 4 are first fixed on a mounting plate 48, for example by means not shown pneumatic holding devices, as shown in FIG. 10 is shown. The two lenses assume a predetermined relative position with a predetermined bridge width between the lenses.

In a step S4, the mounting locations for the connecting elements of the jaws and the bridge are then fixed to the spectacle lenses, these mounting locations in the first exemplary embodiment lying on the front sides 3 of the spectacle lenses 2 and 4. In FIG. 10 the attachment locations 50 on the right lens 4 are represented by cross-shaped markings. It should be understood, however, that it is not necessary to form such visible markings on the spectacle lenses. Rather, it is sufficient and it is preferable to determine the attachment locations by having their location in a three-dimensional coordinate system (see the XYZ coordinate system in FIG FIG. 10 ) is programmed in and by means of a program control device, not shown.

After the attachment locations for the jaw and bridge fasteners have been determined, in a step S5, the coating is ablated at the attachment locations and attachment locations, respectively, to form mating surfaces on the eyeglass lenses 2 and 4. The purpose of the removal of the coating is to expose the base material of the lenses, so that the respective joining surface on the lens has the material nature of the base material of the lens. Accordingly, the coating is in the range of Complete joining surface to be formed, ie, removed to the full thickness of the coating. It is neither necessary nor intended that also base material be removed. However, if at the same time as the removal of the coating and base material at a shallow depth - at a depth of a few micrometers - is removed, this has proven to be harmless.

To remove the coating in the area of the joining surfaces to be formed, basically any method is suitable by means of which the coating can be removed in a defined range and essentially limited to the thickness of the coating.

For example, the coating can be removed by irradiating the finest abrasive particles, for example abrasive particles in the form of glass flour. In this case, it is expedient to cover the lenses in the area outside of the joining surfaces to be formed by means of a film.

Furthermore, the coating can be removed, for example, by means of a laser tool which generates a laser beam which is focused on the joining surface to be formed and is moved over the entire region of the joining surface to be formed. In this case, the energy of the laser beam and its penetration depth can be precisely metered, so that only the coating is removed in the desired manner, without any significant amount of base material being removed. Ultrashort laser pulses enable particularly precise material removal without a melt phase.

It has proved to be advantageous to remove the coating by means of a face grinding tool that performs a high-frequency rotary motion or reciprocating motion with a frequency in the range of 24 to 30 kHz. This is schematic in the FIGS. 10 and 11 shown. A grinding device comprises a drive unit 52 and an end grinding tool 54 carried by the drive unit. The grinding device is moved to the respective mounting location in the XY plane under the control of the program control device. In FIG. 10 At the mounting location, the grinding device is lowered in the Z direction until the end face of the front grinding tool 54 is in contact with the spectacle lens with a small contact force. The face grinding tool 54 performs a high-frequency movement, for example, a pendulum movement in the Y direction with a frequency of 28 kHz. The end grinding tool 54 is moved, for example, in a zigzag shape in the Y direction and in the X direction over the entire region of a joining surface to be formed, so that finally a joining surface results on the spectacle lens, which substantially resembles the joining surface on the connecting element in terms of shape and dimensions. Exemplary shows FIG. 10 a joining surface 56 for the left connection element of the bridge. The contact pressure of the face grinding tool 54 and the machining time by grinding are determined by preliminary tests and determined so that, as already stated, the coating 32 is completely removed in the region of the joining surface 56 to be formed, without significant removal of base material.

It has been found that when the coating in the manner described above by grinding with high Frequency is removed, homogeneous joint surfaces can be formed with microscopic roughness, without tensions in the base material of the lenses are generated. In high-frequency grinding, the lenses are not vibrated, thereby preventing waviness of the mating surfaces. In addition, the procedure described allows a rational eyewear production, since the entire grinding process can be automated and requires only a short processing time of a few seconds.

After the joining surfaces have been formed by locally removing the coating in step S5 and after the jaws and the bridge have been manufactured in step S6, in step S7 the bridge, the jaws and the spectacle lenses are glued together.

During bonding, the spectacle lenses 2 and 4 with the joining surfaces formed thereon preferably remain fixed to the mounting plate 48, to which they have been fixed for the purpose of forming the joining surfaces. Furthermore, it has proven expedient to roughen the joining surfaces of the connecting elements, that is, for example, the base surface 22 of the connecting elements 18 of the first exemplary embodiment of the spectacles. As an alternative to a mechanical roughening by grinding, the stickiness of the connecting elements can be increased by pretreating their joining surfaces with acetone by smearing the joining surfaces with an acetone-soaked sponge or the like.

While it is possible to use the adhesive used for bonding, for example a cyanoacrylate adhesive Apply the joining surface of the respective connecting element 18 or the joining surface 56 on the lens before the connecting element is arranged at the associated mounting location. However, it is preferred to proceed in such a way that initially the respective connecting element 18 is arranged and pressed against the associated mounting location, as shown in FIG FIG. 12 is shown before the adhesive is introduced between the joining surface 56 on the lens and the joining surface on the connecting element 18. In this case, the introduction of the adhesive takes place by means of a metering device, from the in FIG. 12 only one nozzle 58 is shown. In order to facilitate the attachment of the nozzle 58 and the introduction of the adhesive, as shown in FIG. 12 is shown, the respective connecting element 18 may be provided with a recess 60. The introduced in metered amount of adhesive spreads due to acting in the gap between the two joining surfaces capillary forces as a thin adhesive layer and remains limited to the gap area between the two joining surfaces, because outside of this gap region no capillary forces act. Due to this effect and the precise metering of the adhesive, a clean adhesive bond is achieved, ie an adhesive bond in which virtually no adhesive is present outside the region in which the two joining surfaces overlap.

As already mentioned, the adhesive used is by way of example and preferably a cyanoacrylate adhesive which is of medium viscosity with a viscosity in the range of 120 mPa.s at 20 ° C. or, preferably, low viscosity with a viscosity in the range of 7 mPa. s at 20 ° C is. The duration during which the connecting element and the spectacle lens are pressed together during bonding have to be, is in these adhesives a few seconds, so that the bonding in a short time and can be carried out efficiently.

After all four connecting elements 18 have been glued to the two lenses 2 and 4 in step S7 in the manner described above, the connecting elements are connected to the basic bodies of the jaws and the bridge in the manner already described above in the explanation of the first embodiment, so that a finished spectacle middle part, consisting of the two spectacle lenses, the bridge and the jaws, is present. By adding the web component and the bracket, the glasses are completed to the finished rimless glasses.

In the following, further embodiments of rimless spectacles according to the invention will be described with reference to FIG FIGS. 13 to 20 explained. The FIGS. 13 and 17 show in each case too FIG. 2 Similarly, a perspective view of the base body 16 and the connecting element 18 of the left jaw 12 of the respective embodiment. The FIGS. 14 and 18 show in each case too FIG. 3 Similarly, a schematic bottom view of the left edge portion of the left lens 2, wherein the state is shown, take the glued to the lens 2 connecting element 18 and the associated body 16 before they are joined together. The FIGS. 15 and 19 show in each case too FIG. 4 Similarly, a bottom view, in which the state after assembly of the connecting element 18 is shown with the base 16. The FIGS. 16 and 20 show in each case too FIG. 5 Similarly, a perspective view of the left Spectacle lens 2 from the front with the attached left jaw 12th

Those elements of the further exemplary embodiments, which correspond to elements of the first embodiment of the spectacles according to the invention or correspond to elements of the first embodiment, are designated by the same reference numerals as in the first embodiment.

In the second embodiment according to the FIGS. 13 to 16 the base body 16 of the jaw 12 is an injection-molded plastic part, which is designed similar to the base body 16 of the first embodiment. Notwithstanding the first embodiment, the base body 16 of the jaw in the second embodiment, however, at the free end of the leg 19 has an end face on which a hook 62 is formed with two locking lugs 64.

The connecting element 18 is an injection-molded plastic part and has substantially the shape of a cuboid with an integrally formed at one end of the base 22 of this projecting projection 66. In the connecting element 18, a recess 68 is formed with two undercuts. The shape of the recess 68 and its undercuts is adapted to the shape of the hook 62 such that the hook 62 can engage with its locking lugs 64 in the undercuts.

After the connecting element 18 has been bonded to the left lens 2, it is with the Base 16 joined together by the hook 62 from the in FIG. 14 shown position is pushed into the recess 68 until the position according to FIG. 15 is reached. In this case, the connecting element 18 is elastically expanded until the locking lugs 64 can engage in the undercuts of the recess 68 at the end of the insertion process, so that a positive locking connection is made due to this engagement.

In this second embodiment, the connecting element 18 on the projection 66. This surrounds the edge 5 of the lens 2. The connecting element 18 is bonded not only on its base 22 with the front side 3 of the lens 2, but also glued to the inside 70 of the projection 66 with the edge 5. However, this is merely an additional bond, the joining surfaces are substantially smaller than the joining surfaces on the front side 3 of the lens 2. To enable this additional bonding, it is not necessary to remove a coating on the edge 5 of the lens since there after the formation of the disc shape anyway the base material of the spectacle lens is exposed.

In the third embodiment according to the FIGS. 17 to 20 is the main body 16 of the jaw a made of a metal component, the in FIG. 17 has shown shape. The main body 16 of the jaw consists of two mutually parallel, curved bars 72 which merge at their one ends to form the Gelenkauges 28 into each other and are connected at their other ends fixed to an oval plate 74.

The connecting element 18 of the third embodiment is an injection-molded plastic part having an oval base and a curved surface, so that it has the overall shape of an oval lens. The connecting element 18 is adhesively bonded at its base to the front side 3 of the spectacle lens 2 and has a slot 76 running essentially parallel to its base. The shape and dimensions of the slot 76 are adapted to the shape and dimensions of the plate 74 and the ends of the bars 72 connected thereto such that the plate 74 can be slid into the slot 76 so that the relative arrangement of the connecting element 18 and the base 16 according to FIG. 19 results. In the in FIG. 19 shown state engages a formed on the connecting element 18, projecting into the slot 76 projection into a hole in the plate 74, so that is provided in this way for a positive connection between the connecting element 18 and the base 16 of the jaw.

As the FIGS. 18 and 19 show, extend in the third embodiment, the joining surfaces on the connecting element 18 and the lens 2 up to its edge. 5

While in the first embodiment, the connecting element 18 is arranged on the side facing the lens side of the leg 19 of the base body 16, the connecting element 18 is formed in the second and third embodiments such that it the hook 62 at the end of the leg 19 and the one end of the body 16 completely surrounds. In this way, the connecting element of the second embodiment and the third embodiment each form a shoe, in one end of the base body is inserted. This shoe is, analogous to the connecting element 18 of the first embodiment, made of a flexible plastic with lower hardness than that of the material of the base body, so that this shoe has already discussed above damping or buffering function and protects the adhesive layer of the adhesive bond from shock loads.

In a modification of the third embodiment, in which the connecting element 18 and the base body 16 of the jaw 12 are put together after the connecting element 18 has been bonded to the front side 3 of the spectacle lens 2, the connecting element 18 with the same outer shape, as in FIG. 17 is shown, molded on the base body 16. As a result of spraying, the result then in FIG. 21 shown jaw 12. The connecting element 18 and the base body 16 are already firmly connected to each other in this case, before the connecting element 18 is bonded to the front side 3 of the spectacle lens 2.

With regard to the method for producing the spectacles according to the second embodiment and the third embodiment, the above explanations apply to the manufacturing method according to the invention.

The invention relates to a method for producing a rimless glasses, are glued in the connecting elements of the jaws and the bridge of the glasses with the front or the back of the lenses. In the process, first two spectacle lenses are made of a plastic, on the Front and back a coating is applied. The two coated spectacle lenses are cut and ground so as to obtain two spectacle lenses having a desired disc shape. At predetermined attachment locations for the connecting elements of the jaws and the bridge on the front or the back of the lenses, the coating is removed to form joining surfaces, which correspond in shape and dimensions substantially to the joining surfaces of the connecting elements. The fasteners are then bonded to the front and back of the lenses at the mounting locations, respectively. Since the base material is exposed in the region of the joining surfaces on the spectacle lenses, a permanently firm adhesive bond can be produced between the connecting elements and the spectacle lenses on their front or rear side using adhesives known per se.

1. 1. Verfahren zur Herstellung einer randlosen Brille, wobei die Brille aufweist
   zwei Brillengläser (2, 4), eine zwischen den beiden Brillengläsern (2, 4) angeordnete Brücke (6), die die beiden Brillengläser (2, 4) miteinander verbindet,
   zwei Backen (12, 14), die jeweils mit einem der zwei Brillengläser (2, 4) an einem von der Brücke (6) abgewandten Randbereich des Brillenglases verbunden sind, und
   zwei Bügeln (15), die jeweils gelenkig mit einer der beiden Backen (12, 14) verbunden sind,
   wobei das Verfahren die folgenden Schritte aufweist:
   1. a) Fertigen von zwei Brillen-Rohgläsern (42) aus einem Kunststoff;
   2. b) Aufbringen einer Beschichtung (32) auf die Vorderseite (3) und die Rückseite der Brillen-Rohgläser (42) ;
   3. c) Bearbeiten der Brillen-Rohgläser (42) in der Weise, dass die zwei Brillengläser (2, 4) mit einer gewünschten Scheibenform (46) erhalten werden;
   4. d) Fertigen der zwei Backen (12, 14), wobei jede der Backen ein Verbindungselement (18) mit einer Fügefläche zum Verbinden der Backe (12, 14) mit einem der zwei Brillengläser (2, 4) aufweist;
   5. e) Fertigen der Brücke (6), wobei die Brücke zwei Verbindungselemente (18) mit einer Fügefläche zum Verbinden der Brücke mit den zwei Brillengläsern (2, 4) aufweist;
   6. f) Festlegen der Anbringungsorte (50) für die Verbindungselemente (18) der Backen (12, 14) und der Brücke (6) auf der Vorderseite (3) oder der Rückseite der Brillengläser (2, 4);
   7. g) Abtragen der Beschichtung (32) an den Anbringungsorten (50) zur Bildung von Fügeflächen (56) an den Brillengläsern (2, 4); und
   8. h) Verkleben der Verbindungselemente (18) der Backen (12, 14) und der Brücke (6) mit der Vorderseite (3) bzw. der Rückseite der Brillengläser (2, 4) an den Anbringungsorten (50).
2. 2. Verfahren nach Anspruch 1, dadurch gekennzeichnet, dass die aufgebrachte Beschichtung (32) zumindest eine Hartschicht (36) und eine Schmutz abweisende Schicht (40) umfasst.
3. 3. Verfahren nach Anspruch 2, dadurch gekennzeichnet, dass die aufgebrachte Beschichtung (32) ferner eine Entspiegelungsschicht (38) oder eine Verspiegelungsschicht umfasst.
4. 4. Verfahren nach einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, dass die Beschichtung (32) an den Anbringungsorten (50) bis zur ganzen Dicke der Beschichtung (32) abgetragen wird.
5. 5. Verfahren nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, dass zur Bildung der Fügeflächen (56) an den Brillengläsern (2, 4) die Beschichtung (32) an den Anbringungsorten (50) in einem Bereich der Vorderseite (3) bzw. der Rückseite des jeweiligen Brillenglases (2, 4) abgetragen wird, der in Form und Abmessungen im Wesentlichen der Fügefläche des jeweils anzuklebenden Verbindungselementes (18) gleicht.
6. 6. Verfahren nach Anspruch 5, dadurch gekennzeichnet, dass der Bereich im Wesentlichen eine Rechteckform hat.
7. 7. Verfahren nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, dass im Schritt g) die Beschichtung (32) abgetragen wird durch Schleifen oder Fräsen.
8. 8. Verfahren nach Anspruch 7, dadurch gekennzeichnet, dass die Beschichtung (32) abgetragen wird mittels eines Stirnschleifwerkzeugs (54), das eine hochfrequente Drehbewegung oder Hin- und Herbewegung ausführt.
9. 9. Verfahren nach Anspruch 8, dass die Frequenz der Drehbewegung oder der Hin- und Herbewegung im Bereich von 15 bis 40 kHz, vorzugsweise im Bereich von 24 bis 30 kHz liegt.
10. 10. Verfahren nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, dass im Schritt g) die Beschichtung (32) abgetragen wird durch Aufstrahlen von Strahlmittelteilchen.
11. 11. Verfahren nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, dass im Schritt g) die Beschichtung (32) abgetragen wird durch Bestrahlen mit Laserlicht.
12. 12. Verfahren nach einem der Ansprüche 1 bis 11, dadurch gekennzeichnet, dass im Schritt h) zunächst das jeweilige Verbindungselement (18) am zugeordneten Anbringungsort (50) angeordnet und angedrückt wird und dann ein Klebstoff in dosierter Menge zwischen die Fügeflächen (56) am Brillenglas (2, 4) und am Verbindungselement (18) eingebracht wird.
13. 13. Verfahren nach einem der Ansprüche 1 bis 12, dadurch gekennzeichnet, dass vor Schritt h) die Fügefläche des jeweiligen Verbindungselementes (18) aufgeraut wird.
14. 14. Verfahren nach einem der Ansprüche 1 bis 12, dadurch gekennzeichnet, dass vor Schritt h) die Fügefläche des jeweiligen Verbindungselementes (18) mit Aceton behandelt wird.
15. 15. Verfahren nach einem der Ansprüche 1 bis 14, dadurch gekennzeichnet, dass als Klebstoff zum Verkleben ein Cyanacrylatklebstoff verwendet wird.
16. 16. Verfahren nach einem der Ansprüche 1 bis 15, dadurch gekennzeichnet, dass die Backen (12, 14) und die Brücke (6) jeweils gefertigt werden aus einem Grundkörper (16) und dem Verbindungselement (18) bzw. den Verbindungselementen (18), wobei der Grundkörper (16) aus einem anderen Werkstoff gefertigt wird als dem Werkstoff des Verbindungselementes (18) bzw. der Verbindungselemente (18).
17. 17. Verfahren nach Anspruch 16, dadurch gekennzeichnet, dass die Verbindungselemente (18) aus einem flexiblen Kunststoff mit geringer Härte gefertigt werden.
18. 18. Verfahren nach Anspruch 17, dadurch gekennzeichnet, dass die Härte des Kunststoffs im Bereich von 40 bis 60 Shore D liegt.
19. 19. Verfahren nach Anspruch 17 oder 18, dadurch gekennzeichnet, dass der Kunststoff ein aliphatisches, thermoplastisches Polyether-Polyurethan ist.
20. 20. Verfahren nach einem der Ansprüche 16 bis 19, dadurch gekennzeichnet, dass der Grundkörper (16) und das jeweilige Verbindungselement (18) getrennt gefertigt werden und miteinander durch Kraft- oder Formschluss verbunden werden.
21. 21. Verfahren nach einem der Ansprüche 17 bis 19, dadurch gekennzeichnet, dass jedes Verbindungselement (18) mit dem zugehörigen Grundkörper (16) durch Anspritzen des Verbindungselementes (18) in einem Spritzgießverfahren verbunden wird.
22. 22. Verfahren nach einem der Ansprüche 16 bis 21, dadurch gekennzeichnet, dass der Grundkörper (16) aus Metall gefertigt wird.
23. 23. Verfahren nach einem der Ansprüche 16 bis 21, dadurch gekennzeichnet, dass der Grundkörper (16) aus einem Kunststoff gefertigt wird.
24. 24. Verfahren nach einem der Ansprüche 1 bis 15, dadurch gekennzeichnet, dass jede Backe einschließlich ihres Verbindungselementes einstückig aus einem Kunststoff gefertigt wird und dass die Brücke einschließlich ihrer Verbindungselemente einstückig aus einem Kunststoff gefertigt wird.

This application is a divisional application of European patent application no. 07 113 025.6 ("Parent application"), which is also under the number EP 2 019 331 is published. The original claims of the parent application are repeated below and form part of the disclosure of this application.

1. 1. A method for producing a rimless glasses, wherein the glasses has
   two spectacle lenses (2, 4), a bridge (6) arranged between the two spectacle lenses (2, 4) and connecting the two spectacle lenses (2, 4),
   two jaws (12, 14), each with one of the two lenses (2, 4) on one of the bridge (6) remote edge region of the spectacle lens are connected, and
   two brackets (15) each hinged to one of the two jaws (12, 14),
   the method comprising the following steps:
   1. a) manufacturing two glasses raw glasses (42) made of a plastic material;
   2. b) applying a coating (32) on the front side (3) and the back of the spectacle lenses (42);
   3. c) processing the spectacle lenses (42) so as to obtain the two spectacle lenses (2, 4) with a desired disc shape (46);
   4. d) manufacturing the two jaws (12, 14), each of the jaws having a connecting element (18) with a joining surface for connecting the jaw (12, 14) with one of the two spectacle lenses (2, 4);
   5. e) manufacturing the bridge (6), the bridge having two connecting elements (18) with a joining surface for connecting the bridge to the two spectacle lenses (2, 4);
   6. f) fixing the attachment locations (50) for the connecting elements (18) of the jaws (12, 14) and the bridge (6) on the front side (3) or the back of the lenses (2, 4);
   7. g) removing the coating (32) at the attachment locations (50) to form joining surfaces (56) on the spectacle lenses (2, 4); and
   8. h) bonding the connecting elements (18) of the jaws (12, 14) and the bridge (6) with the front side (3) or the back of the lenses (2, 4) at the mounting locations (50).
2. 2. The method according to claim 1, characterized in that the applied coating (32) at least one Hard layer (36) and a dirt-repellent layer (40).
3. 3. The method according to claim 2, characterized in that the applied coating (32) further comprises an anti-reflection layer (38) or a mirror coating layer.
4. 4. The method according to any one of claims 1 to 3, characterized in that the coating (32) at the mounting locations (50) is removed to the full thickness of the coating (32).
5. 5. The method according to any one of claims 1 to 4, characterized in that for forming the joining surfaces (56) on the spectacle lenses (2, 4) the coating (32) at the mounting locations (50) in a region of the front side (3) or the back side of the respective spectacle lens (2, 4) is removed, which in terms of shape and dimensions substantially equals the joining surface of the respective connecting element (18) to be adhesively bonded.
6. 6. The method according to claim 5, characterized in that the region has a substantially rectangular shape.
7. 7. The method according to any one of claims 1 to 6, characterized in that in step g), the coating (32) is removed by grinding or milling.
8. 8. The method according to claim 7, characterized in that the coating (32) is removed by means of a Stirnschleifwerkzeugs (54) which performs a high-frequency rotary motion or reciprocating motion.
9. 9. The method of claim 8, wherein the frequency of the rotary motion or the reciprocating motion in the range of 15 to 40 kHz, preferably in the range of 24 to 30 kHz.
10. 10. The method according to any one of claims 1 to 6, characterized in that in step g), the coating (32) is removed by irradiating Strahlmittelteilchen.
11. 11. The method according to any one of claims 1 to 6, characterized in that in step g), the coating (32) is removed by irradiation with laser light.
12. 12. The method according to any one of claims 1 to 11, characterized in that in step h) first the respective connecting element (18) at the associated mounting location (50) is arranged and pressed and then an adhesive in metered quantity between the joining surfaces (56) on Spectacle lens (2, 4) and on the connecting element (18) is introduced.
13. 13. The method according to any one of claims 1 to 12, characterized in that before step h) the joining surface of the respective connecting element (18) is roughened.
14. 14. The method according to any one of claims 1 to 12, characterized in that before step h) the joining surface of the respective connecting element (18) is treated with acetone.
15. 15. The method according to any one of claims 1 to 14, characterized in that a cyanoacrylate adhesive is used as adhesive for bonding.
16. 16. The method according to any one of claims 1 to 15, characterized in that the jaws (12, 14) and the bridge (6) are each made of a base body (16) and the connecting element (18) or the connecting elements (18). , wherein the base body (16) is made of a different material than the material of the connecting element (18) or the connecting elements (18).
17. 17. The method according to claim 16, characterized in that the connecting elements (18) are made of a flexible plastic with low hardness.
18. 18. The method according to claim 17, characterized in that the hardness of the plastic in the range of 40 to 60 Shore D.
19. 19. The method according to claim 17 or 18, characterized in that the plastic is an aliphatic, thermoplastic polyether polyurethane.
20. 20. The method according to any one of claims 16 to 19, characterized in that the base body (16) and the respective connecting element (18) are manufactured separately and connected to each other by force or positive engagement.
21. 21. The method according to any one of claims 17 to 19, characterized in that each connecting element (18) with the associated base body (16) by injection molding of the connecting element (18) is connected in an injection molding.
22. 22. The method according to any one of claims 16 to 21, characterized in that the base body (16) is made of metal.
23. 23. The method according to any one of claims 16 to 21, characterized in that the base body (16) is made of a plastic.
24. 24. The method according to any one of claims 1 to 15, characterized in that each jaw, including its connecting element is made in one piece from a plastic material and that the bridge, including its connecting elements is made in one piece from a plastic.

Claims (24)

Method for producing rimless glasses,
having the glasses
two spectacle lenses (2, 4), a bridge (6) arranged between the two spectacle lenses (2, 4) and connecting the two spectacle lenses (2, 4),
two jaws (12, 14) which are each connected to one of the two lenses (2, 4) at an edge region of the lens facing away from the bridge (6), and
two brackets (15) each hinged to one of the two jaws (12, 14),
the method comprising the following steps: a) manufacturing two glasses raw glasses (42) made of a plastic material; b) processing the spectacle lenses (42) so as to obtain the two spectacle lenses (2, 4) with a desired disc shape (46); c) manufacturing the two jaws (12, 14), each of the jaws having a connecting element (18) with a joining surface for connecting the jaw (12, 14) with one of the two spectacle lenses (2, 4); d) manufacturing the bridge (6), wherein the bridge has two connecting elements (18) with a joining surface for connecting the bridge to the two spectacle lenses (2, 4); e) fixing the attachment locations (50) for the connecting elements (18) of the jaws (12, 14) and the bridge (6) on the front side (3) or the back of the lenses (2, 4); and f) bonding the connecting elements (18) of the jaws (12, 14) and the bridge (6) with the front side (3) or the back of the lenses (2, 4) at the mounting locations (50),
the method being characterized by the following additional steps: g) applying a coating (32) on the front side (3) and the back of the spectacle lenses (42) after step a) and before step b), and h) removing the coating (32) at the attachment locations (50) to form joining surfaces (56) on the spectacle lenses (2, 4) after step e) and before step f). A method according to claim 1, characterized in that the applied coating (32) comprises at least one hard layer (36) and a dirt-repellent layer (40). A method according to claim 2, characterized in that the applied coating (32) further comprises an anti-reflection layer (38) or a mirroring layer. Method according to one of claims 1 to 3, characterized in that the coating (32) at the mounting locations (50) is removed to the full thickness of the coating (32). Method according to one of claims 1 to 4, characterized in that to form the joining surfaces (56) on the spectacle lenses (2, 4), the coating (32) at the mounting locations (50) in an area of the front side (3) and the Rear side of the respective spectacle lens (2, 4) is removed, which is similar in shape and dimensions substantially to the joining surface of the respectively to be adhesively bonded connecting element (18). A method according to claim 5, characterized in that the region has a substantially rectangular shape. Method according to one of claims 1 to 6, characterized in that in step h) the coating (32) is removed by grinding or milling. A method according to claim 7, characterized in that the coating (32) is removed by means of a Stirnschleifwerkzeugs (54), which performs a high-frequency rotary movement or reciprocating motion. Method according to claim 8, characterized in that the frequency of the rotary movement or of the reciprocating movement is in the range of 15 to 40 kHz, preferably in the range of 24 to 30 kHz. Method according to one of claims 1 to 6, characterized in that in step h) the coating (32) is removed by irradiating Strahlmittelteilchen. Method according to one of claims 1 to 6, characterized in that in step h) the coating (32) is removed by irradiation with laser light. Method according to one of claims 1 to 11, characterized in that in step f) first the respective connecting element (18) at the associated mounting location (50) is arranged and pressed and then an adhesive in metered quantity between the joining surfaces (56) on the lens ( 2, 4) and on the connecting element (18) is introduced. Method according to one of claims 1 to 12, characterized in that before step f) the joining surface of the respective connecting element (18) is roughened. Method according to one of claims 1 to 12, characterized in that before step f) the joining surface of the respective connecting element (18) is treated with acetone. Method according to one of claims 1 to 14, characterized in that a cyanoacrylate adhesive is used as the adhesive for bonding. Method according to one of claims 1 to 15, characterized in that the jaws (12, 14) and the bridge (6) are each made of a base body (8, 16) and the connecting element (18) or the connecting elements (18). , wherein the base body (16) is made of a different material than the material of the connecting element (18) or the connecting elements (18). A method according to claim 16, characterized in that the connecting elements (18) are made of a flexible plastic with low hardness. A method according to claim 17, characterized in that the hardness of the plastic is in the range of 40 to 60 Shore D. A method according to claim 17 or 18, characterized in that the plastic is an aliphatic, thermoplastic polyether polyurethane. Method according to one of claims 16 to 19, characterized in that the base body (8, 16) and the respective connecting element (18) are manufactured separately and connected to each other by force or positive connection. Method according to one of claims 17 to 19, characterized in that each connecting element (18) with the associated base body (8, 16) by injection molding of the connecting element (18) is connected in an injection molding process. Method according to one of claims 16 to 21, characterized in that the base body (8, 16) is made of metal. Method according to one of claims 16 to 21, characterized in that the base body (8, 16) is made of a plastic. Method according to one of claims 1 to 15, characterized in that each jaw, including its connecting element is made in one piece from a plastic and that the bridge, including its connecting elements is made in one piece from a plastic.

Images